论文信息 - VERIFICATION OF MULTIPHYSICS SOFTWARE: SPACE AND TIME CONVERGENCE STUDIES FOR NONLINEARLY COUPLED APPLICATIONS

VERIFICATION OF MULTIPHYSICS SOFTWARE: SPACE AND TIME CONVERGENCE STUDIES FOR NONLINEARLY COUPLED APPLICATIONS

High-fidelity modeling of nuclear reactors requires the solution of nonlinear coupled multi-physics stiff problems with widely varying time and length scales that need to be resolved correctly. A numerical method that converges the implicit nonlinear terms to a small tolerance is often referred to as nonlinearly consistent (or tightly coupled). This nonlinear consistency is still lacking in the vast majority of coupling techniques employed today. We describe a tightly coupled multiphysics framework that tackles this issue and present code verification and convergence analyses in space and time for several models of nonlinear coupled physics.

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